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path: root/host/lib/usrp/x300/x300_fw_ctrl.cpp
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//
// Copyright 2013 Ettus Research LLC
// Copyright 2018 Ettus Research, a National Instruments Company
//
// SPDX-License-Identifier: GPL-3.0-or-later
//

#include "x300_fw_common.h"
#include "x300_regs.hpp"
#include <uhd/exception.hpp>
#include <uhd/transport/nirio/niriok_proxy.h>
#include <uhd/transport/nirio/status.h>
#include <uhd/transport/udp_simple.hpp>
#include <uhd/types/wb_iface.hpp>
#include <uhd/utils/byteswap.hpp>
#include <uhd/utils/log.hpp>
#include <boost/date_time/posix_time/posix_time.hpp>
#include <boost/format.hpp>
#include <boost/thread/mutex.hpp>
#include <chrono>
#include <thread>

using namespace uhd;
using namespace uhd::niusrprio;

class x300_ctrl_iface : public wb_iface
{
public:
    enum { num_retries = 3 };

    x300_ctrl_iface(bool enable_errors = true) : errors(enable_errors)
    {
        /* NOP */
    }

    void flush(void)
    {
        boost::mutex::scoped_lock lock(reg_access);
        __flush();
    }

    void poke32(const wb_addr_type addr, const uint32_t data)
    {
        for (size_t i = 1; i <= num_retries; i++) {
            boost::mutex::scoped_lock lock(reg_access);
            try {
                return this->__poke32(addr, data);
            } catch (const uhd::io_error& ex) {
                std::string error_msg =
                    str(boost::format("%s: x300 fw communication failure #%u\n%s")
                        % __loc_info() % i % ex.what());
                if (errors)
                    UHD_LOGGER_ERROR("X300") << error_msg;
                if (i == num_retries)
                    throw uhd::io_error(error_msg);
            }
        }
    }

    uint32_t peek32(const wb_addr_type addr)
    {
        for (size_t i = 1; i <= num_retries; i++) {
            boost::mutex::scoped_lock lock(reg_access);
            try {
                uint32_t data = this->__peek32(addr);
                return data;
            } catch (const uhd::io_error& ex) {
                std::string error_msg =
                    str(boost::format("%s: x300 fw communication failure #%u\n%s")
                        % __loc_info() % i % ex.what());
                if (errors)
                    UHD_LOGGER_ERROR("X300") << error_msg;
                if (i == num_retries)
                    throw uhd::io_error(error_msg);
            }
        }
        return 0;
    }

protected:
    bool errors;

    virtual void __poke32(const wb_addr_type addr, const uint32_t data) = 0;
    virtual uint32_t __peek32(const wb_addr_type addr)                  = 0;
    virtual void __flush()                                              = 0;
    virtual std::string __loc_info()                                    = 0;

    boost::mutex reg_access;
};


//-----------------------------------------------------
// Ethernet impl
//-----------------------------------------------------
class x300_ctrl_iface_enet : public x300_ctrl_iface
{
public:
    x300_ctrl_iface_enet(uhd::transport::udp_simple::sptr udp, bool enable_errors = true)
        : x300_ctrl_iface(enable_errors), udp(udp), seq(0)
    {
        try {
            this->peek32(0);
        } catch (...) {
        }
    }

protected:
    virtual void __poke32(const wb_addr_type addr, const uint32_t data)
    {
        // load request struct
        x300_fw_comms_t request = x300_fw_comms_t();
        request.flags =
            uhd::htonx<uint32_t>(X300_FW_COMMS_FLAGS_ACK | X300_FW_COMMS_FLAGS_POKE32);
        request.sequence = uhd::htonx<uint32_t>(seq++);
        request.addr     = uhd::htonx(addr);
        request.data     = uhd::htonx(data);

        // send request
        __flush();
        udp->send(boost::asio::buffer(&request, sizeof(request)));

        // recv reply
        x300_fw_comms_t reply = x300_fw_comms_t();
        const size_t nbytes = udp->recv(boost::asio::buffer(&reply, sizeof(reply)), 1.0);
        if (nbytes == 0)
            throw uhd::io_error("x300 fw poke32 - reply timed out");

        // sanity checks
        const size_t flags = uhd::ntohx<uint32_t>(reply.flags);
        UHD_ASSERT_THROW(nbytes == sizeof(reply));
        UHD_ASSERT_THROW(not(flags & X300_FW_COMMS_FLAGS_ERROR));
        UHD_ASSERT_THROW(flags & X300_FW_COMMS_FLAGS_POKE32);
        UHD_ASSERT_THROW(flags & X300_FW_COMMS_FLAGS_ACK);
        UHD_ASSERT_THROW(reply.sequence == request.sequence);
        UHD_ASSERT_THROW(reply.addr == request.addr);
        UHD_ASSERT_THROW(reply.data == request.data);
    }

    virtual uint32_t __peek32(const wb_addr_type addr)
    {
        // load request struct
        x300_fw_comms_t request = x300_fw_comms_t();
        request.flags =
            uhd::htonx<uint32_t>(X300_FW_COMMS_FLAGS_ACK | X300_FW_COMMS_FLAGS_PEEK32);
        request.sequence = uhd::htonx<uint32_t>(seq++);
        request.addr     = uhd::htonx(addr);
        request.data     = 0;

        // send request
        __flush();
        udp->send(boost::asio::buffer(&request, sizeof(request)));

        // recv reply
        x300_fw_comms_t reply = x300_fw_comms_t();
        const size_t nbytes = udp->recv(boost::asio::buffer(&reply, sizeof(reply)), 1.0);
        if (nbytes == 0)
            throw uhd::io_error("x300 fw peek32 - reply timed out");

        // sanity checks
        const size_t flags = uhd::ntohx<uint32_t>(reply.flags);
        UHD_ASSERT_THROW(nbytes == sizeof(reply));
        UHD_ASSERT_THROW(not(flags & X300_FW_COMMS_FLAGS_ERROR));
        UHD_ASSERT_THROW(flags & X300_FW_COMMS_FLAGS_PEEK32);
        UHD_ASSERT_THROW(flags & X300_FW_COMMS_FLAGS_ACK);
        UHD_ASSERT_THROW(reply.sequence == request.sequence);
        UHD_ASSERT_THROW(reply.addr == request.addr);

        // return result!
        return uhd::ntohx<uint32_t>(reply.data);
    }

    virtual void __flush(void)
    {
        char buff[X300_FW_COMMS_MTU] = {};
        while (udp->recv(boost::asio::buffer(buff), 0.0)) {
        } // flush
    }

    virtual std::string __loc_info(void)
    {
        return udp->get_send_addr();
    }

private:
    uhd::transport::udp_simple::sptr udp;
    size_t seq;
};


//-----------------------------------------------------
// PCIe impl
//-----------------------------------------------------
class x300_ctrl_iface_pcie : public x300_ctrl_iface
{
public:
    x300_ctrl_iface_pcie(niriok_proxy::sptr drv_proxy, bool enable_errors = true)
        : x300_ctrl_iface(enable_errors), _drv_proxy(drv_proxy)
    {
        nirio_status status = 0;
        nirio_status_chain(
            _drv_proxy->set_attribute(RIO_ADDRESS_SPACE, BUS_INTERFACE), status);

        // Verify that the Ettus FPGA loaded in the device. This may not be true if the
        // user is switching to UHD after using LabVIEW FPGA.
        uint32_t pcie_fpga_signature = 0;
        _drv_proxy->peek(FPGA_PCIE_SIG_REG, pcie_fpga_signature);
        if (pcie_fpga_signature != FPGA_X3xx_SIG_VALUE)
            throw uhd::io_error(
                "cannot create x300_ctrl_iface_pcie. incorrect/no fpga image");

        // Also, poll on the ZPU_STATUS bit to ensure all the state machines in the FPGA
        // are ready to accept register transaction requests.
        uint32_t reg_data = 0xffffffff;
        boost::posix_time::ptime start_time =
            boost::posix_time::microsec_clock::local_time();
        boost::posix_time::time_duration elapsed;

        do {
            std::this_thread::sleep_for(
                std::chrono::microseconds(500)); // Avoid flooding the bus
            elapsed = boost::posix_time::microsec_clock::local_time() - start_time;
            nirio_status_chain(
                _drv_proxy->peek(PCIE_ZPU_STATUS_REG(0), reg_data), status);
        } while (nirio_status_not_fatal(status) && (reg_data & PCIE_ZPU_STATUS_SUSPENDED)
                 && elapsed.total_milliseconds() < INIT_TIMEOUT_IN_MS);

        nirio_status_to_exception(status, "Could not initialize x300_ctrl_iface_pcie.");

        try {
            this->peek32(0);
        } catch (...) {
        }
    }

protected:
    virtual void __poke32(const wb_addr_type addr, const uint32_t data)
    {
        nirio_status status = 0;
        uint32_t reg_data   = 0xffffffff;
        boost::posix_time::ptime start_time =
            boost::posix_time::microsec_clock::local_time();
        boost::posix_time::time_duration elapsed;

        nirio_status_chain(_drv_proxy->poke(PCIE_ZPU_DATA_REG(addr), data), status);
        if (nirio_status_not_fatal(status)) {
            do {
                std::this_thread::sleep_for(
                    std::chrono::microseconds(50)); // Avoid flooding the bus
                elapsed = boost::posix_time::microsec_clock::local_time() - start_time;
                nirio_status_chain(
                    _drv_proxy->peek(PCIE_ZPU_STATUS_REG(addr), reg_data), status);
            } while (
                nirio_status_not_fatal(status)
                && ((reg_data & (PCIE_ZPU_STATUS_BUSY | PCIE_ZPU_STATUS_SUSPENDED)) != 0)
                && elapsed.total_milliseconds() < READ_TIMEOUT_IN_MS);
        }

        if (nirio_status_fatal(status))
            throw uhd::io_error("x300 fw poke32 - hardware IO error");
        if (elapsed.total_milliseconds() > READ_TIMEOUT_IN_MS)
            throw uhd::io_error("x300 fw poke32 - operation timed out");
    }

    virtual uint32_t __peek32(const wb_addr_type addr)
    {
        nirio_status status = 0;
        uint32_t reg_data   = 0xffffffff;
        boost::posix_time::ptime start_time =
            boost::posix_time::microsec_clock::local_time();
        boost::posix_time::time_duration elapsed;

        nirio_status_chain(
            _drv_proxy->poke(PCIE_ZPU_READ_REG(addr), PCIE_ZPU_READ_START), status);
        if (nirio_status_not_fatal(status)) {
            do {
                std::this_thread::sleep_for(
                    std::chrono::microseconds(50)); // Avoid flooding the bus
                elapsed = boost::posix_time::microsec_clock::local_time() - start_time;
                nirio_status_chain(
                    _drv_proxy->peek(PCIE_ZPU_STATUS_REG(addr), reg_data), status);
            } while (
                nirio_status_not_fatal(status)
                && ((reg_data & (PCIE_ZPU_STATUS_BUSY | PCIE_ZPU_STATUS_SUSPENDED)) != 0)
                && elapsed.total_milliseconds() < READ_TIMEOUT_IN_MS);
        }
        nirio_status_chain(_drv_proxy->peek(PCIE_ZPU_DATA_REG(addr), reg_data), status);

        if (nirio_status_fatal(status))
            throw uhd::io_error("x300 fw peek32 - hardware IO error");
        if (elapsed.total_milliseconds() > READ_TIMEOUT_IN_MS)
            throw uhd::io_error("x300 fw peek32 - operation timed out");

        return reg_data;
    }

    virtual void __flush(void)
    {
        __peek32(0);
    }

    virtual std::string __loc_info(void)
    {
        return std::to_string(_drv_proxy->get_interface_num());
    }

private:
    niriok_proxy::sptr _drv_proxy;
    static const uint32_t READ_TIMEOUT_IN_MS = 100;
    static const uint32_t INIT_TIMEOUT_IN_MS = 5000;
};

wb_iface::sptr x300_make_ctrl_iface_enet(
    uhd::transport::udp_simple::sptr udp, bool enable_errors = true)
{
    return wb_iface::sptr(new x300_ctrl_iface_enet(udp, enable_errors));
}

wb_iface::sptr x300_make_ctrl_iface_pcie(
    niriok_proxy::sptr drv_proxy, bool enable_errors = true)
{
    return wb_iface::sptr(new x300_ctrl_iface_pcie(drv_proxy, enable_errors));
}